Generating design reference years from the UKCP09 projections and their application to future air-conditioning loads

Du, Hu; Underwood, Chris; Edge, Jerry

doi:10.1177/0143624411431775

Cited by 23 publications

(23 citation statements)

References 17 publications

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“…Given these shortcomings, an improved method for deriving near-extreme summer data appears to be needed which is also confirmed by the findings of CIBSE TM49. 27 The selection procedures proposed in conjunction with weather generator outputs 25,26 are an attractive option to produce more consistent near-extreme weather data sets. However, the large amount of data that is required to be able to deliver statistically reliable information cannot be obtained with measured annual data due to the short time periods commonly available for weather file generation (typically around 20 years).…”

Section: Or the Designmentioning

confidence: 99%

Generating near-extreme Summer Reference Years for building performance simulation

Jentsch

Eames

Levermore

2015

Building Services Engineering Research and Technology

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At present, there is no universally accepted method for deriving near-extreme summer weather data for building performance simulation. Existing data sets such as the Design Summer Years (DSY) used in the UK to estimate summer discomfort in naturally ventilated and free running buildings have been criticised for being inconsistent with the corresponding Test Reference Years (TRY). This paper proposes a method for generating Summer Reference Years (SRY) by adjusting the TRY of a given site with meteorological data in order to represent near-extreme conditions. It takes as the starting point that the TRY is robust, being determined on a monthly basis from the most typical months. Initial simulations for the 14 UK TRY locations show promising results for determining building overheating with the SRY. Practical application: The proposed method for deriving near-extreme summer years from multi-year data and the corresponding 'typical' weather year (TRY) of a given site is applicable to locations worldwide and facilitates summer overheating assessment of naturally ventilated and free running buildings. The method helps to overcome the previous shortcomings of near-extreme summer year selection procedures by providing a clear relationship to the underlying TRY.

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Section: Or the Designmentioning

confidence: 99%

Generating near-extreme Summer Reference Years for building performance simulation

Jentsch

Eames

Levermore

2015

Building Services Engineering Research and Technology

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“…To balance this with the probabilistic nature of the future climate data, Watkins et al (2013) and Du et al (2012a) both provide DRYs at two percentiles (87.5 and 97.5 per cent in COPSE Manchester data, 85 and 99 per cent in COPSE Northumbria data).…”

Section: Copse Northumbria Drys -Methods Bmentioning

confidence: 99%

Evaluative application of UKCP09‐based downscaled future weather years to simulate overheating risk in typical English homes

Gupta

Gregg

et al. 2013

Structural Survey

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Purpose -To critically compare three future weather year (FWY) downscaling approaches, based on the 2009 UK Climate Projections, used for climate change impact and adaptation analysis in building simulation software. Design/methodology/approach -The validity of these FWYs is assessed through dynamic building simulation modelling to project future overheating risk in typical English homes in 2050s and 2080s. Findings -The modelling results show that the variation in overheating projections is far too significant to consider the tested FWY data sets equally suitable for the task.Research and practical implications -It is recommended that future research should consider harmonisation of the downscaling approaches so as to generate a unified data set of FWYs to be used for a given location and climate projection. If FWY are to be used in practice, live projects will need viable and reliable FWY on which to base their adaptation decisions. The difference between the data sets tested could potentially lead to different adaptation priorities specifically with regard to time series and adaptation phasing through the life of a building. Originality/value -The paper investigates the different results derived from FWY application to building simulation. The outcome and implications are important considerations for research and practice involved in FWY data use in building simulation intended for climate change adaptation modelling.

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“…The current weather data file (2002) was obtained from the official site of the U.S. Department of Energy [33] . By using the Climate Change World Weather File Generator [34,35] , the future weather data files for 2020, 2050 and 2080 were generated, for the climatic zones that have been tested in Egypt, and they cover the periods 2010-2039, 2040-2069 and 2070-2099 respectively [36] . The available weather data files gave a maximum test period of 88 years, with 2012 assumed to be the starting construction year.…”

Section: Weather Data Files (Wdf)mentioning

confidence: 99%

Thermal Behaviour Assessment For The Different Building Envelope Parts In Egypt Under Climate Change Scenarios

Mahdy

Barakat

2017

Eng. Sci. and Milit. Techno.

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This paper presents a comprehensive evaluation for (of) the results of a recent research effort concerning thermal comfort in residential buildings in Egypt. The energy performance and thermal comfort were considered based on the instructions of the Egyptian Residential Energy Code (EREC) to improve the efficiency of energy use. The conclusions of the aforementioned research on the building envelope (walls / fenestration) were tested together to make sure (prove or demonstrate or verify) that the use of what seems to be the best solutions for external walls (solid part) in addition to the best solutions for fenestration (openings), will results result in a better overall performance in energy consumption and thermal comfort, than (when) implementing (only) one of the two choices. To attain that, two (mixed-mood) [heating, ventilation and air conditioning (HVAC)] case study buildings were dynamically simulated in three dominant Egyptian climatic zones, using current climate conditions (2002) in addition to three other morphed climate change scenarios (2020, 2050 and 2080). Achieving the required rates for thermal comfort, and acquiring (securing) long term financial gains were the basic elements of the evaluation. The results provide what seems to be a functionally and financially successful combination to fulfil the evaluation elements.

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Generating design reference years from the UKCP09 projections and their application to future air-conditioning loads

Cited by 23 publications

References 17 publications

Generating near-extreme Summer Reference Years for building performance simulation

Generating near-extreme Summer Reference Years for building performance simulation

Evaluative application of UKCP09‐based downscaled future weather years to simulate overheating risk in typical English homes

Thermal Behaviour Assessment For The Different Building Envelope Parts In Egypt Under Climate Change Scenarios

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